Objective: To investigate whether mouse-induced pluripotent stem (iPS) cell line IP14D-1 has the potential to differentiate into induced primordial germ cells (iPGCs), and to explore the changes in the expression of iPGCs-differentiation associated genes and their possible mechanisms.
Methods: Undifferentiated IP14D-1 was cultured to proliferate and then differentiated to form 4-, 7- and 9-day-old induced embryoid bodies (iEBs) in vitro, respectively. RT-PCR and immunofluorescence were used to detect the expressions of Lin28, Blimpl, Stra8 and Mvh, as well as the localization of the corresponding protein in iEBs.
Results: The expression of Blimpl was higher than that of Lin28 in the undifferentiated IP14D-1 and mouse embryonic stem cells (mESCs). Mvh and Stra8 as well as mESCs and EBs were also expressed in IP14D-1 and iEBs, but with no significant differences. The expression of Lin28 was gradually increased in the IP14D-1-derived iEBs from 4 to 7 days, but decreased at 9 days, and the expression of Blimp1 was gradually reduced with the prolonged growing time of iEBs.
Conclusion: A stable system was established for the culture and differentiation of IP14D-1 and IP14D-1-derived iEBs. The expressions of Lin28, Blimp1, Mvh and Stra8 were not significantly different between the undifferentiated IP14D-1 and mESCs, nor were the expressions of Mvh and Stra8 between iEBs and EBs. IP14D-1 and iEBs had the potential to differentiate into iPGCs, which increased in number in the 7-day-old iEBs, and the expression of iPGC-differentiation associated Lin28 became lower in the older iEBs.